INFLUENCE OF NITROGEN AND SALINITY LEVELS ON THE FRUIT YIELD AND CHEMICAL COMPOSITION OF TOMATO IN A HYDROPONIC CULTURE

Salt-tolerant turfgrass is highly desirable in areas associated with saline soils or saline irrigation waters. To determine the salt tolerance of 14 saltgrass [Distichlis spicata var. stricta (Greene)] selections, two greenhouse studies were conducted by means of a hydroponic culture system. Five salinity levels (from 2 to 48 dS·m−1) were created with ocean salts. In general, turf quality decreased and leaf firing increased as salinity increased. However, varying levels of salt tolerance were observed among selections based on leaf firing, turf quality, root growth, and clipping yield. Selections COAZ-01, COAZ-18, CO-01, and COAZ-19 exhibited the best turf quality and the least leaf firing at 36 and 48 dS·m−1 salinity levels in both Experiments 1 and 2. At the highest salinity level (48 dS·m−1), COAZ-18 and COAZ-19 exhibited the highest root activity among all accessions. Salinity levels that caused 25% clipping reduction ranged from 21.2 to 29.9 dS·m−1 and were not significantly different among entries. The data on 25% clipping reduction salinity of saltgrass generated in this study rank saltgrass as one of the most salt-tolerant species that can be used as turf.

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Growth and Chemical Composition of Hybrid GF677 (Prunus amygdalusxPrunus persica) Influenced by Salinity Levels of Irrigation Water

Asian Journal of Plant Sciences ◽

10.3923/ajps.2008.309.313 ◽

2008 ◽

Vol 7 (3) ◽

pp. 309-313

Author(s):

Sh. Najafian ◽

M. Rahemi ◽

V. Tavallali

Keyword(s):

Chemical Composition ◽

Irrigation Water ◽

Salinity Levels

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Latitudinal, seasonal and depth-dependent variation in growth, chemical composition and biofouling of cultivated Saccharina latissima (Phaeophyceae) along the Norwegian coast

Journal of Applied Phycology ◽

10.1007/s10811-020-02038-y ◽

2020 ◽

Vol 32 (4) ◽

pp. 2215-2232 ◽

Cited By ~ 3

Author(s):

Silje Forbord ◽

Sanna Matsson ◽

Guri E. Brodahl ◽

Bodil A. Bluhm ◽

Ole Jacob Broch ◽

...

Keyword(s):

Chemical Composition ◽

Latitudinal Gradient ◽

Biomass Yield ◽

Saccharina Latissima ◽

Seaweed Farming ◽

Membranipora Membranacea ◽

Salinity Levels ◽

Biomass Yields ◽

Tissue Nitrogen ◽

Frond Length

Abstract The Norwegian coastline covers more than 10° in latitude and provides a range in abiotic and biotic conditions for seaweed farming. In this study, we compared the effects of cultivation depth and season on the increase in biomass (frond length and biomass yield), chemical composition (protein, tissue nitrogen, intracellular nitrate and ash content) and biofouling (total cover and species composition) of cultivated Saccharina latissima at nine locations along a latitudinal gradient from 58 to 69° N. The effects of light and temperature on frond length and biofouling were evaluated along with their relevance for selecting optimal cultivation sites. Growth was greater at 1–2 m than at 8–9 m depth and showed large differences among locations, mainly in relation to local salinity levels. Maximum frond lengths varied between 15 and 100 cm, and maximum biomass yields between 0.2 and 14 kg m−2. Timing of maximum frond length and biomass yield varied with latitude, peaking 5 and 8 weeks later in the northern location (69° N) than in the central (63° N) and southern (58° N) locations, respectively. The nitrogen-to-protein conversion factor (averaged across all locations and depths) was 3.8, while protein content varied from 22 to 109 mg g−1 DW, with seasonality and latitude having the largest effect. The onset of biofouling also followed a latitudinal pattern, with a delayed onset in northern locations and at freshwater-influenced sites. The dominant epibiont was the bryozoan Membranipora membranacea. Our results demonstrate the feasibility of S. latissima cultivation along a wide latitudinal gradient in North Atlantic waters and underscore the importance of careful site selection for seaweed aquaculture.

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Influence of K on the Yield and Chemical Composition of Grasses Grown in Hydroponic Culture with 12, 50, and 75% of the N Supplied as NH 4 + 1

Agronomy Journal ◽

10.2134/agronj1966.00021962005800010017x ◽

1966 ◽

Vol 58 (1) ◽

pp. 52-57 ◽

Cited By ~ 6

Author(s):

L. B. MacLeod ◽

R. B. Carson

Keyword(s):

Chemical Composition ◽

Hydroponic Culture

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Effect of soil salinity levels on growth and chemical composition ofSyzygium cuminiL.

Journal of Horticultural Science ◽

10.1080/00221589.1983.11515101 ◽

1983 ◽

Vol 58 (1) ◽

pp. 141-145 ◽

Cited By ~ 4

Author(s):

P. K. Patil ◽

V. K. Patil

Keyword(s):

Chemical Composition ◽

Soil Salinity ◽

Salinity Levels

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The Application of Nitrogen Fertilization and Foliar Spraying with Calcium and Boron Affects Growth Aspects, Chemical Composition, Productivity and Fruit Quality of Strawberry Plants

Horticulturae ◽

10.3390/horticulturae7080257 ◽

2021 ◽

Vol 7 (8) ◽

pp. 257

Author(s):

Mustafa. H. M. Mohamed ◽

Spyridon A. Petropoulos ◽

Maha Mohamed Elsayed Ali

Keyword(s):

Chemical Composition ◽

Fruit Quality ◽

Combined Treatment ◽

Fruit Yield ◽

Organic Fertilizers ◽

Recommended Dose ◽

Organic N ◽

Mineral N ◽

Growing Seasons

Strawberries are rich in antioxidants and plant components to enhance cardiac health and regulate blood sugar. This experiment investigates the effects of N fertilization and foliar spraying with calcium (Ca) and boron (B) on growth, chemical composition of plant foliage, fruit yield, and quality of strawberry plants (Fragaria x ananassa Duch. cv. Fortuna). This experiment includes 12 treatments from the combination between four N fertilizers treatments (combinations of mineral and organic fertilizers) and three foliar spraying treatments with Ca+B at 2 and 4 mL/L in addition to the control treatment (spraying with tap water). Results show that the treatment where 50% of the recommended dose of N (50% RDN) was applied with mineral fertilizer + 100% organic N was the most effective one since it induced the highest values of plant height, number of crowns per plant, number of leaves per plant, fresh and dry weight per plant, especially when combined with the foliar application of Ca+B at the highest tested rate (4 mL/L). The highest values of N, P, K, Ca, B, and total carbohydrate contents were also scored for the combination of 50% RDN + 100% organic N and the foliar spraying with Ca+B at 4 mL/L in both growing seasons. In addition, the highest values of fruit yield per plant and per hectare, exportable fruit yield/ha, fruit firmness, fruit TSS, Vitamin C, total sugars, and anthocyanin, as well as the lowest values of total acidity were recorded for the combined treatment of 50% RDN + 100% organic and Ca+B at the highest rate (4 mL/L). The highest recorded value of length, diameter, and weight of fruit were scored by fertilizing strawberry plants with the recommended dose of mineral N (100% RDN) and spraying with Ca+B at the highest rate in both growing seasons. In conclusion, it could be suggested that fertilization of strawberry plants with half the recommended dose with mineral N fertilizer + 100% organic fertilizer and foliar spraying with Ca+B at 4 mL/L increases plant growth and improve yield parameters and fruit quality of the strawberry plants.

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